Diving Ducks: Into the Deep
Diving ducks are perfectly designed for feeding in deep-water habitats.
Diving ducks are perfectly designed for feeding in deep-water habitats.
By John M. Coluccy, Ph.D., and Heather Shaw
Among North American waterfowl, three distinct tribes of ducks are collectively known as diving ducks. This unique group of species includes the stifftails (ruddy ducks), sea ducks (eiders, scoters, mergansers, goldeneyes, buffleheads, long-tailed ducks, and harlequin ducks) and pochards (canvasbacks, redheads, scaup, and ring-necked ducks). While there are significant differences among these birds, they all share unique behavioral, morphological, and physiological adaptations for diving and feeding underwater.
The next time you are fortunate enough to harvest a diver and a dabbler on the same day, take a close look at each bird. You will notice several obvious physical characteristics that set them apart. First, the body of a diving duck is much more compact and fusiform (wider in the middle and tapering toward the end) than that of a dabbler. Divers' wings are also more compact, which allows them to be compressed tightly against the body for greater diving efficiency. In addition, divers' legs are set much farther back on their body, and their feet are much larger and have a lobed hind toe. These adaptations help propel the birds while they are underwater.
In general, most birds are lighter than water. But diving ducks typically have higher body densities than other waterfowl. Just before they dive, the birds compress their feathers against their body, squeezing out air, which further reduces buoyancy. Next, with a single thrust of their powerful legs and feet, diving ducks arch their bodies upward and dive headlong, quickly disappearing beneath the water's surface.
Once underwater, the birds use their feet and wings to propel them downward in search of food. They steer during descent largely by shifting their head and tail positions. Once near the bottom, diving ducks use their feet to maintain a hovering position while the birds forage for aquatic insects, small mollusks, seeds, vegetation, roots, tubers, and other food. Diving ducks will actively forage at all times of day or night. In fact, research on captive canvasbacks found that the birds dove more often and for longer periods at night.
The depths at which diving ducks forage vary significantly. Sea ducks are the most accomplished divers among waterfowl and typically feed in water 10-65 feet deep, although long-tailed ducks are capable of diving much deeper . Most pochards and ruddy ducks feed in two to 10 feet of water on average, but lesser scaup wintering in coastal areas have been observed feeding in up to 40 feet of water. In contrast, redheads and ring-necked ducks often feed like dabblers, either by tipping up or by immersing their heads to probe the bottom substrate or grab food just below the water's surface.
Not surprisingly, the duration of each dive increases with foraging depth. A typical dive takes 10-30 seconds, but diving ducks may remain underwater for a minute or more. Captive lesser scaup monitored in a dive tank spent only about a quarter of each dive feeding and the majority of time diving and ascending.
As you might expect, diving ducks carry large volumes of air with them when they dive. For example, the respiratory system of lesser scaup is estimated to account for 52 percent of their initial buoyancy. Like other specialized diving birds, diving ducks also have an unusually high tolerance for asphyxia, or lack of air. In fact, diving ducks reduce their oxygen consumption while they are underwater. During a dive, available oxygen is rationed sparingly to sensitive tissues in the central nervous system and sensory organs. In addition, the heart rate is reduced, and blood flow to most other organs and skeletal muscles is curtailed. At these times, organs and tissues rely on anaerobic (oxygen-free) metabolism. This "diving reflex" is triggered when water touches special receptors in the birds' nares (nostrils).
When the dive is complete, diving ducks simply relax their muscles, stop paddling, and ascend to the surface like a cork. Diving ducks that feed on submersed aquatic vegetation or sedentary invertebrates like clams return to the surface in almost the same place. But birds feeding on mobile prey like amphipods or fish may surface more than 50 feet from the initial dive location. Following each dive, the birds take a short rest break of 10-30 seconds before diving again. In one study, a white-winged scoter spent an average of 58 seconds underwater during each of six consecutive dives and rested for an average of 12 seconds between dives.
Diving ducks possess many specialized adaptations that make them uniquely suited to exploit deep-water habitats. Unfortunately, much of this habitat has been lost or severely degraded across North America. The good news is that Ducks Unlimited is working hard with many partners to conserve these habitats and secure a brighter future for these magnificent birds.